Cisco WS-C2960-24TC-S Software Guide - Page 575

Chapter 29 Configuring IPv6 Host Functions Understanding IPv6 All interfaces on IPv6 nodes must have a link-local address, which is automatically configured from the identifier (router MAC address) for an interface and the link-local prefix FE80::/10. A link-local address enables a node to communicate with other nodes on the link and can be used to further configure the node. Nodes can connect to a network and automatically generate global IPv6 addresses without the need for manual configuration or the help of a server, such as a DHCP server. With IPv6, a router on the link uses router advertisement messages to advertise global prefixes and its ability to act as a default router for the link. A node on the link can automatically configure global IPv6 addresses by appending its interface identifier (64-bits) to the prefixes (64 bits) included in the router advertisement messages. The 128-bit IPv6 addresses configured by a node are then subjected to duplicate-address detection (RFC 2462) to ensure their uniqueness on the link. If the advertised prefixes are globally unique, the IPv6 addresses configured by the node are guaranteed to be globally unique. Router solicitation messages, which have a value of 133 in the ICMP packet header Type field, are sent by hosts at system startup so that the host can be immediately autoconfigured without waiting for the next scheduled router advertisement message. IPv6 duplicate-address detection is performed on unicast addresses before they are assigned to an interface. The switch does not support automatically generated site-local IPv6 addresses. IPv6 Applications The switch has IPv6 support for these applications: • Ping, traceroute, Telnet, TFTP, and FTP • Secure Shell (SSH) over an IPv6 transport • HTTP server access over IPv6 transport • DNS resolver for AAAA over IPv4 transport • Cisco Discovery Protocol (CDP) support for IPv6 addresses For more information about managing these applications with Cisco IOS, see the "Managing Cisco IOS Applications over IPv6" section in the Cisco IOS IPv6 Configuration Library at this URL: http://www.cisco.com/en/US/products/sw/iosswrel/ps1839/products_feature_guide09186a00807fcf4b. html Dual IPv4 and IPv6 Protocol Stacks One technique for transitioning to IPv6 is by using dual IPv4 and IPv6 protocol stacks. Using dual stacks enables gradual, one-by-one upgrades to applications running on nodes. Applications that are upgraded to IPv6 use the IPv6 protocol stack, and applications that are not upgraded and support only IPv4 can coexist with upgraded applications on the same node. New and upgraded applications can use both IPv4 and IPv6 protocol stacks. The Cisco IOS software supports the dual IPv4 and IPv6 protocol stack technique. When both IPv4 and IPv6 routing are enabled and an interface is configured with both an IPv4 and IPv6 address, the interface forwards both IPv4 and IPv6 traffic. Figure 29-1 shows a router forwarding both IPv4 and IPv6 traffic through the same interface, based on the IP packet and destination addresses. OL-8603-04 Catalyst 2960 Switch Software Configuration Guide 29-5